Description
Specifications Table
Product Name – Manganese (II) Sulphate Monohydrate 98.0%
Quantity/Pack Size – 500 gm, 5 kg, 50 kg
Form – Crystalline Powder
Grade – Laboratory Reagent
Application – Chemical Analysis, Research, and Synthesis
Product Overview
Manganese (II) Sulphate Monohydrate 98.0% is a high-quality lab reagent widely used in chemical research, synthesis, and analytical applications. This compound is characterized by its high purity and consistent composition, ensuring reliable results in laboratory settings. The monohydrate form enhances solubility and stability, making it suitable for precise experimental work. Manufactured under stringent quality control standards, it meets the demands of academic institutions, research labs, and industrial testing facilities. Its versatility extends to various chemical reactions, including oxidation-reduction processes and as a catalyst in organic synthesis. The fine crystalline powder form ensures easy handling and accurate measurements, while the 98.0% purity grade guarantees minimal impurities, reducing the risk of contamination in sensitive experiments. Whether for educational purposes or advanced research, this reagent delivers the performance and reliability required for consistent outcomes.
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FAQs
1. What are the common applications of Manganese (II) Sulphate Monohydrate?
It is used in chemical synthesis, analytical procedures, and as a reagent in various laboratory experiments.
2. Is this product suitable for educational labs?
Yes, its high purity and lab-grade quality make it ideal for academic and research purposes.
3. How should Manganese (II) Sulphate Monohydrate be stored?
Store in a cool, dry place away from direct sunlight and moisture to maintain its stability.
4. Can this compound be used in organic synthesis?
Yes, it serves as a catalyst and reactant in certain organic synthesis reactions.
5. What is the difference between anhydrous and monohydrate forms?
The monohydrate form contains one water molecule per formula unit, enhancing solubility and stability compared to the anhydrous form.
